Bismuth trioxide-tailored sintering temperature, microstructure and NTCR characteristics of Mn₁.₁Co₁.₅Fe₀.₄O₄ ceramics
2019
Wang, Bing | Wang, Junhua | Chang, Aimin | Yao, Jincheng
Mn₁.₁Co₁.₅Fe₀.₄O₄ ceramics with tailored sintering temperature, microstructure, and NTCR characteristics were prepared using Bi₂O₃ sintering additive by a solid-state reaction route. Densification and morphological characterization indicate that bismuth trioxide can play a critical role in the sintering process. The results reveal that the sintering temperature can be decreased significantly from 1200 °C to 1050 °C by using the appropriate content of Bi₂O₃ additive. The resistivity decreases first and then increases with increasing Bi₂O₃ content. The obtained B₂₅/₅₀ value and ρ₂₅ ranges were 3647–3697 K, and 800–1075 Ω cm, respectively. Oxygen sorption theory can be used to illustrate the optimal thermal stability (ΔR/R₀ = 0.10%). Complex impedance analysis further elucidates that grain boundaries make a dominant contribution to the total resistance. The mechanisms of grain boundary conduction and relaxation behavior are systematically analyzed. These findings open up a window for the further advancement of NTC ceramics at lower sintering temperature.
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